Our broad portfolio consists of multiplex panels that allow you to choose, within the panel, analytes that best meet your needs. On a separate tab you can choose the premixed cytokine format or a single plex kit.
Cell Signaling Kits & MAPmates™
Choose fixed kits that allow you to explore entire pathways or processes. Or design your own kits by choosing single plex MAPmates™, following the provided guidelines.
The following MAPmates™ should not be plexed together:
-MAPmates™ that require a different assay buffer
-Phospho-specific and total MAPmate™ pairs, e.g. total GSK3β and GSK3β (Ser 9)
-PanTyr and site-specific MAPmates™, e.g. Phospho-EGF Receptor and phospho-STAT1 (Tyr701)
-More than 1 phospho-MAPmate™ for a single target (Akt, STAT3)
-GAPDH and β-Tubulin cannot be plexed with kits or MAPmates™ containing panTyr
.
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Select A Species, Panel Type, Kit or Sample Type
To begin designing your MILLIPLEX® MAP kit select a species, a panel type or kit of interest.
Custom Premix Selecting "Custom Premix" option means that all of the beads you have chosen will be premixed in manufacturing before the kit is sent to you.
If you have chosen panel analytes and then choose a premix or single plex kit, you will lose that customization.
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96-Well Plate
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Add Additional Reagents (Buffer and Detection Kit is required for use with MAPmates)
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48-602MAG
Buffer Detection Kit for Magnetic Beads
1 Kit
Space Saver Option Customers purchasing multiple kits may choose to save storage space by eliminating the kit packaging and receiving their multiplex assay components in plastic bags for more compact storage.
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Gas chromatography is a technique suitable for the separation of volatile, thermally stable molecules. In GC, the injected sample is vaporized at the start of the column. Separation of the analytes takes place because of the differences in the partition coefficient of each analyte between a stationary liquid phase and an inert gaseous mobile phase.
GC systems have the following major components (Figure 1):
Column. This is housed in an oven that can be temperature programmed. There are two types of GC columns: packed capillary and open tubular
Sample injection port. Samples are usually injected directly into the mobile phase gas flow using a syringe.
Carrier gas supply. Typical carrier gases used in GC are helium, argon, and nitrogen.
Detector. There are several detectors available, with flame ionization detector (FID) as the most popular. FID uses hydrogen/air flame to decompose the analyte molecules into ions by burning them and then measuring the change in current. A mass spectrometric detector can also be coupled to a GC to provide better sensitivity and selectivity. Other detectors include: nitrogen phosphorus (NPD), electron capture (ECD), photoionization (PID), flame photometric (FPD), and thermal conductivity detector (TCD).
Figure 1. Schematic of a gas chromatograph
GC-MS is the preferred method for the analysis of volatile organics (VOCs) in water. VOCs are ground water contaminants of concern because they are released to the environment in large quantities, their human toxicity, and a tendency for some of these compounds to persist and migrate to drinking water supply wells.
For more detailed information about VOCs, click here.
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